CN102856757A - Commutator for brush motor - Google Patents

Abstract

The invention relates to a commutator for a brush motor. The commutator comprises a cylindrical insulation body, a first ring conduction portion, a second ring conduction portion, a plurality of first commutation portions and a plurality of second commutation portions, wherein the first commutation portions are electrically connected with the first conduction portion, the second commutation portions are electrically connected with the second conduction portion, the first commutation portions and the second commutation portions are alternatively arranged on the outer cylindrical surface of the insulation body along the circumferential direction of the commutator and used for contacting with an electric brush group in a sliding mode, the first commutation portions and the second commutation portions are at least partially overlapped along the axial direction of the commutator, the first conduction portion and the second conduction portion are located on the same axial sides of the commutation portions, and axial end surfaces of the first conduction portion and the second conduction portion are electric brush contact surfaces and used for contacting with the other electric brush group in a sliding mode. According to the commutator for the brush motor, the two conduction portions are located on the same axial sides of the commutation portions so that axial size of the commutator can be effectively reduced.

Description

The commutator that is used for brush motor

Technical field

The present invention relates to a kind of brush motor, relate in particular to a kind of commutator of brush motor.

Background technology

The Japanese Patent Application Publication Unexamined Patent discloses a kind of cylindrical commutator 4-200259 number, described commutator comprises the pair of conductive ring, from conducting ring along motor shaft to the commutator segment of relative extension, described conducting ring respectively with a pair of slide plate sliding contact, described slide plate is connected respectively to the two poles of the earth of DC power supply, commutator segment and another are to the slide plate sliding contact, and described another is electrically connected with motor stator winding slide plate.

Yet, the commutator of this type, axial dimension is longer.

The present invention aims to provide a kind of commutator of novel axial dimension compactness.

Summary of the invention

The invention provides a kind of commutator for brush motor, comprise the insulating body that is cylindricality, the first annular conductive part, the second annular conductive part, some the first commutation sections that are electrically connected with the first conductive part, some the second commutation sections that are electrically connected with the second conductive part, described the first commutation section and the second commutation section are along the outer cylinder that circumferentially is arranged alternately in insulating body, be used for and a brush group sliding contact, described the first commutation section and the second commutation section are along commutator shaft at least part of overlapping, the first conductive part and the second conducting position are used for and another brush group sliding contact in the axial homonymy of commutation section.

Preferably, the axial end of described the first conductive part and the second conductive part is brush contact susface.

Preferably, described the first conductive part is disc, and central authorities establish through hole, and the second conductive part is cylindrical, and the second conductive part passes the through hole of the first conductive part.

Preferably, the external diameter of described the first conductive part equals the external diameter on the face of cylinder that described the first commutation section and the second commutation section surround substantially, the external diameter on the face of cylinder that the external diameter of the second conductive part surrounds less than described the first commutation section and the second commutation section.

Preferably, the axial inner surface of described the first conductive part is established step trough, and the axial end of described the first commutation section is established stepped projection, and described stepped projection is fixedly welded in the described step trough.

Preferably, described the first conductive part and the second conductive part are along commutator shaft to stacked.

Preferably, described insulating body comprises base plate and cylinder, and described base plate is located between the first conductive part and the second conductive part, and described the first commutation section and the second commutation section are along the external cylindrical surface that circumferentially is arranged alternately in described cylinder.

Preferably, the first conducting position is in plate outer side, and the second conducting position is inboard in base plate, and the first commutation section passes base plate and is connected with the first conductive part.

Preferably, the external diameter of described the first conductive part is greater than the external diameter of the second conductive part, the external diameter on the face of cylinder that the external diameter of the second conductive part surrounds greater than described the first commutation section and the second commutation section.

Illustrated embodiment of the present invention has following beneficial effect: two conducting positions can effectively shorten the axial dimension of commutator in the axial homonymy of commutation section.

In order further to understand feature of the present invention and technology contents, see also following about detailed description of the present invention and accompanying drawing, yet institute's accompanying drawing only provide with reference to and the explanation usefulness, the present invention is limited.

Description of drawings

In the accompanying drawing:

Fig. 1 is the schematic perspective view of the commutator of one embodiment of the invention;

Fig. 2 is the schematic perspective view of insulating body of the commutator of Fig. 1;

Figure 3 shows that the first conductive part of commutator of Fig. 1 and the schematic perspective view of the first commutation section;

Figure 4 shows that the second conductive part of commutator of Fig. 1 and the schematic perspective view of the second commutation section;

Figure 5 shows that the schematic perspective view of the commutator of another embodiment of the present invention;

The commutator that Figure 6 shows that Fig. 5 removes the schematic perspective view behind the first conductive part;

The commutator that Figure 7 shows that Fig. 5 removes the schematic perspective view behind the first conductive part and the insulating body;

Figure 8 shows that the schematic perspective view of the first conductive part of the commutator of Fig. 5.

Embodiment

Below in conjunction with accompanying drawing, by the specific embodiment of the present invention is described in detail, will make technical scheme of the present invention and other beneficial effects apparent.

See also Fig. 1 to Fig. 4, the commutator that is used for having brushless motor of one embodiment of the invention comprises insulating body 10, the first annular conductive part 30, the second annular conductive part 50, some the first commutation sections 70 that are electrically connected with the first conductive part 30, some the second commutation sections 90 that are electrically connected with the second conductive part 50.

Described insulating body 10 comprises base plate 12 and cylinder 14, base plate 12 and cylinder 14 central authorities establish through hole, wear for machine shaft, described cylinder 14 outer surfaces form some fins 16, form groove 18 between the adjacent fin, described groove 18 is divided into the first groove 182 and the second groove 184, the first grooves 182 and the second groove 184 and is alternately distributed, the first groove 182 passes through base plate 12, the second grooves 184 and does not pass through base plate 12.

The first commutation section 70 and the second commutation section 90 are along circumferentially being arranged alternately in the outer cylinder of the cylinder 14 of insulating body 10, particularly, the first commutation section 70 is contained in the first groove 182 of insulating body 10, the second commutation section 90 is contained in the second groove 184 of insulating body 10, described the first commutation section 70 and the second commutation section 90 are along commutator shaft at least part of overlapping, commutation section 70,90 radially-outer surface is brush contact susface, be used for one group of brush with motor as being connected to the brush sliding contact of motor stator winding, the fin 16 of insulating body 10 lays respectively at adjacent commutation section 70,90, with the commutation section 70 of insulating adjacent, 90.

The first conductive part 30 and the second conductive part 50 are positioned at the axial homonymy of commutator, and both are along commutator shaft to stacked, and the base plate 12 of described insulating body 10 is located between two conductive parts 30,50, with two conductive parts 30,50 that insulate.Particularly, the first conductive part 30 is positioned at base plate 12 outsides, the second conductive part 50 is positioned at base plate 12 inboards, the the first commutation sections 70 in the first groove 182 of insulating body 10 of being contained in pass base plate 12 and are connected with the first conductive part 30, and the second groove 184 the second interior commutation sections 90 that are contained in insulating body 10 are connected with the second conductive part 50.

In the present embodiment, be positioned at the external diameter of the first conductive part 30 in base plate 12 outsides greater than the external diameter of the second conductive part 50.Two conductive parts 30,50 axial inner ends face can be used as brush contact susface, are used for another group brush with motor as being connected to the brush sliding contact of motor power.

Described conductive part 30,50 and commutation section 70,90 can be integrally formed or by other means as welding etc. fixing, the mode that described insulating body 10 can be by injection mo(u)lding and described conductive part 30,50 and commutation section 70,90 fix.

Fig. 5 is to Figure 8 shows that another form commutator.

See also Fig. 5 to Fig. 8, described the first conductive part 130 is disc, and central authorities establish through hole, and the second conductive part is the through hole that cylindrical 150, the second conductive parts 150 pass the first conductive part 130.

The external diameter of described the first conductive part 130 equals the external diameter on the face of cylinder that described the first commutation section 170 and the second commutation section 190 surround substantially, the external diameter on the face of cylinder that the external diameter of the second conductive part 150 surrounds less than described the first commutation section 170 and the second commutation section 190.

Described the first commutation section 170 and the second commutation section 190 extend axially along commutator, the first conductive part 130 fixes by the axial end of the modes such as welding and the first commutation section 170, particularly, the axial inner surface of the first conductive part 130 is established step trough 132, the axial end of described the first commutation section 170 is established stepped projection 172, described stepped projection 172 is contained in the step trough 132 and by being welded and fixed, thus axially and the footpath upwards to the first conductive part 130 location.The outer surface of the second conductive part 150 is connected by connecting bridge 152 with the inner surface of the second commutation section 190.

The above only is preferred embodiment of the present invention, not in order to limiting the present invention, all any modifications of doing within the spirit and principles in the present invention, is equal to and replaces and improvement etc., all should be included within protection scope of the present invention.

Claims (9)

1. commutator that is used for brush motor, comprise the insulating body that is cylindricality, it is characterized in that, described commutator also comprises the first annular conductive part, the second annular conductive part, some the first commutation sections that are electrically connected with the first conductive part, some the second commutation sections that are electrically connected with the second conductive part, described the first commutation section and the second commutation section are along the outer cylinder that circumferentially is arranged alternately in insulating body, be used for and a brush group sliding contact, described the first commutation section and the second commutation section are along commutator shaft at least part of overlapping, the first conductive part and the second conducting position are used for and another brush group sliding contact in the axial homonymy of commutation section.

2. commutator according to claim 1 is characterized in that, the axial end of described the first conductive part and the second conductive part is brush contact susface.

3. commutator according to claim 2 is characterized in that, described the first conductive part is disc, and central authorities establish through hole, and the second conductive part is cylindrical, and the second conductive part passes the through hole of the first conductive part.

4. commutator according to claim 3, it is characterized in that, the external diameter of described the first conductive part equals the external diameter on the face of cylinder that described the first commutation section and the second commutation section surround substantially, the external diameter on the face of cylinder that the external diameter of the second conductive part surrounds less than described the first commutation section and the second commutation section.

5. commutator according to claim 3 is characterized in that, the axial inner surface of described the first conductive part is established step trough, and the axial end of described the first commutation section is established stepped projection, and described stepped projection is fixedly welded in the described step trough.

6. commutator according to claim 2 is characterized in that, described the first conductive part and the second conductive part are along commutator shaft to stacked.

7. commutator according to claim 6, it is characterized in that, described insulating body comprises base plate and cylinder, and described base plate is located between the first conductive part and the second conductive part, and described the first commutation section and the second commutation section are along the external cylindrical surface that circumferentially is arranged alternately in described cylinder.

8. commutator according to claim 7 is characterized in that, the first conducting position is in plate outer side, and the second conducting position is inboard in base plate, and the first commutation section passes base plate and is connected with the first conductive part.

9. commutator according to claim 8 is characterized in that, the external diameter of described the first conductive part is greater than the external diameter of the second conductive part, the external diameter on the face of cylinder that the external diameter of the second conductive part surrounds greater than described the first commutation section and the second commutation section.

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